Flexible Organic Photodiodes for Efficient Light Detection DOI Creative Commons

Huiqing Hou,

Tengfei Li, Yuze Lin

et al.

Advanced Devices & Instrumentation, Journal Year: 2024, Volume and Issue: 5

Published: Jan. 1, 2024

Flexible photodetectors have attracted lots of interest due to the advantages wearability, portability, and implantability, thus adapting various substrates or skin surfaces for wearable applications. Organic semiconductor materials are a promising candidate as photoactive layers their excellent photoelectric properties, remarkable mechanical flexibility, outstanding solution processability. Currently, flexible organic photodiodes (OPDs) made important progress been comparable rigid counterparts in terms partial device performance. In this review, developments OPDs from aspect detectability performance summarized, including substrates, electrodes, active layer films. Furthermore, common applications like health monitoring, optical communication, image sensing further exhibited. end, challenges development opportunities prospected.

Language: Английский

Flexible Organic Photodiodes for Efficient Light Detection DOI Creative Commons

Huiqing Hou,

Tengfei Li, Yuze Lin

et al.

Advanced Devices & Instrumentation, Journal Year: 2024, Volume and Issue: 5

Published: Jan. 1, 2024

Flexible photodetectors have attracted lots of interest due to the advantages wearability, portability, and implantability, thus adapting various substrates or skin surfaces for wearable applications. Organic semiconductor materials are a promising candidate as photoactive layers their excellent photoelectric properties, remarkable mechanical flexibility, outstanding solution processability. Currently, flexible organic photodiodes (OPDs) made important progress been comparable rigid counterparts in terms partial device performance. In this review, developments OPDs from aspect detectability performance summarized, including substrates, electrodes, active layer films. Furthermore, common applications like health monitoring, optical communication, image sensing further exhibited. end, challenges development opportunities prospected.

Language: Английский

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